ack/lang/cem/cemcom.ansi/switch.c

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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* $Id$ */
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/* S W I T C H - S T A T E M E N T A D M I N I S T R A T I O N */
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#include "lint.h"
#ifndef LINT
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#include <em.h>
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#else
#include "l_em.h"
#endif /* LINT */
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#include "debug.h"
#include "botch_free.h"
#include <alloc.h>
#include "density.h"
#include "Lpars.h"
#include "idf.h"
#include "label.h"
#include <flt_arith.h>
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#include "arith.h"
#include "switch.h"
#include "code.h"
#include "assert.h"
#include "expr.h"
#include "type.h"
#include "sizes.h"
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extern char options[];
int density = DENSITY;
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compact(nr, low, up)
arith low, up;
{
/* Careful! up - low might not fit in an arith. And then,
the test "up-low < 0" might also not work to detect this
situation! Or is this just a bug in the M68020/M68000?
*/
arith diff = up - low;
return (nr == 0 || (diff >= 0 && diff / nr <= (density - 1)));
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}
static struct switch_hdr *switch_stack = 0;
/* (EB 86.05.20) The following rules hold for switch statements:
- the expression E in "switch(E)" shall have integral type (3.6.4.2)
- the expression E in "case E:" is converted to the promoted type
of the controlling expression
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For simplicity, we suppose int_size == word_size.
*/
code_startswitch(expp)
struct expr **expp;
{
/* Check the expression, stack a new case header and
fill in the necessary fields.
*/
register label l_table = text_label();
register label l_break = text_label();
register struct switch_hdr *sh = new_switch_hdr();
int fund = any2arith(expp, SWITCH);
/* INT, LONG, FLOAT, DOUBLE or LNGDBL */
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switch (fund) {
case FLOAT:
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case DOUBLE:
case LNGDBL:
error("floating point type in switch");
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erroneous2int(expp);
break;
}
stack_stmt(l_break, NO_LABEL);
sh->sh_break = l_break;
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/* sh->sh_default = 0; */
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sh->sh_table = l_table;
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/* sh->sh_nrofentries = 0; */
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sh->sh_type = (*expp)->ex_type; /* the expression switched */
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/* sh->sh_entries = (struct case_entry *) 0; /* case-entry list */
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sh->sh_expr = *expp;
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#ifdef LINT
code_expr(sh->sh_expr, RVAL, TRUE, NO_LABEL, NO_LABEL);
#endif
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sh->next = switch_stack; /* push onto switch-stack */
switch_stack = sh;
C_bra(l_table); /* goto start of switch_table */
}
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extern char *long2str();
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code_endswitch()
{
register struct switch_hdr *sh = switch_stack;
register label tablabel;
register struct case_entry *ce;
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arith size = sh->sh_type->tp_size;
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if (sh->sh_default == 0) /* no default occurred yet */
sh->sh_default = sh->sh_break;
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#ifndef LINT
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C_bra(sh->sh_break); /* skip the switch table now */
C_df_ilb(sh->sh_table); /* switch table entry */
/* evaluate the switch expr. */
code_expr(sh->sh_expr, RVAL, TRUE, NO_LABEL, NO_LABEL);
if (sh->sh_nrofentries <= 1) {
if (sh->sh_nrofentries) {
load_cst(sh->sh_lowerbd, size);
C_cms(size);
C_zeq(sh->sh_entries->ce_label);
}
else C_asp(size);
C_bra(sh->sh_default);
}
else {
tablabel = data_label(); /* the rom must have a label */
C_df_dlb(tablabel);
C_rom_ilb(sh->sh_default);
if (compact(sh->sh_nrofentries, sh->sh_lowerbd, sh->sh_upperbd)) {
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/* CSA */
register arith val;
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C_rom_icon(long2str((long)sh->sh_lowerbd,10), size);
C_rom_icon(long2str((long)(sh->sh_upperbd - sh->sh_lowerbd),10),
size);
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ce = sh->sh_entries;
for (val = sh->sh_lowerbd; val <= sh->sh_upperbd; val++) {
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ASSERT(ce);
if (val == ce->ce_value) {
C_rom_ilb(ce->ce_label);
ce = ce->next;
}
else
C_rom_ilb(sh->sh_default);
}
C_lae_dlb(tablabel, (arith)0); /* perform the switch */
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C_csa(size);
}
else { /* CSB */
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C_rom_icon(long2str((long)sh->sh_nrofentries,10),size);
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for (ce = sh->sh_entries; ce; ce = ce->next) {
/* generate the entries: value + prog.label */
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C_rom_icon(long2str((long)ce->ce_value,10),size);
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C_rom_ilb(ce->ce_label);
}
C_lae_dlb(tablabel, (arith)0); /* perform the switch */
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C_csb(size);
}
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}
C_df_ilb(sh->sh_break);
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#endif
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switch_stack = sh->next; /* unstack the switch descriptor */
for (ce = sh->sh_entries; ce;) { /* free allocated switch structure */
register struct case_entry *tmp = ce->next;
free_case_entry(ce);
ce = tmp;
}
free_switch_hdr(sh);
unstack_stmt();
}
code_case(expr)
struct expr *expr;
{
register arith val;
register struct case_entry *ce;
register struct switch_hdr *sh = switch_stack;
ASSERT(is_cp_cst(expr));
if (sh == 0) {
error("case statement not in switch");
return;
}
if (expr->ex_flags & EX_ERROR) /* is probably 0 anyway */
return;
ch3cast(&expr, CASE, sh->sh_type);
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ce = new_case_entry();
C_df_ilb(ce->ce_label = text_label());
ce->ce_value = val = expr->VL_VALUE;
if (sh->sh_entries == 0) { /* first case entry */
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/* ce->next = (struct case_entry *) 0; */
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sh->sh_entries = ce;
sh->sh_lowerbd = sh->sh_upperbd = val;
sh->sh_nrofentries = 1;
}
else { /* second etc. case entry; put ce into proper place */
register struct case_entry *c1 = sh->sh_entries, *c2 = 0;
if (val < sh->sh_lowerbd)
sh->sh_lowerbd = val;
else
if (val > sh->sh_upperbd)
sh->sh_upperbd = val;
while (c1 && c1->ce_value < ce->ce_value) {
c2 = c1;
c1 = c1->next;
}
/* At this point three cases are possible:
1: c1 != 0 && c2 != 0: insert ce somewhere in the middle
2: c1 != 0 && c2 == 0: insert ce right after the head
3: c1 == 0 && c2 != 0: append ce to last element
The case c1 == 0 && c2 == 0 cannot occur, since
the list is guaranteed to be non-empty.
*/
if (c1) {
if (c1->ce_value == ce->ce_value) {
error("multiple case entry for value %ld",
ce->ce_value);
free_case_entry(ce);
return;
}
if (c2) {
ce->next = c2->next;
c2->next = ce;
}
else {
ce->next = sh->sh_entries;
sh->sh_entries = ce;
}
}
else {
ASSERT(c2);
ce->next = (struct case_entry *) 0;
c2->next = ce;
}
(sh->sh_nrofentries)++;
}
}
code_default()
{
register struct switch_hdr *sh = switch_stack;
if (sh == 0) {
error("default statement not in switch");
return;
}
if (sh->sh_default != 0) {
error("multiple entry for default in switch");
return;
}
C_df_ilb(sh->sh_default = text_label());
}